Spraying apparatus



Feb. 26 1924-.

C. L.. GINTY SPRAYING APPARATUS 1922 4 Sheets-Sheet 1 @ttor new Filed Aug. 18,

Feb. 26, 1924. 1,5,222

` c. l.. GINTY SFRAYING APPARATUS Feb. 26 1924.

. C. L. GINTY SPRAYING APPARATUS Filed Aug. 18., 1922 4 Sheets-Sheet 3 In/vento@ C@ ries G1511?,

@M501 new Feb. 26 1924.

C. L. GlNTY SPHAYING APPARATUS Filed Aug. 18 1922 4 Sheets-Sheet 4 Patented Feb. 26, i924.

CHARLES L. GINTYfOF Cf iQEtA, LOCKPGR, NEVI YORK.. v

Application filed, Plug-ust 18, 1322,

To all lwhom t may concern:

Be it known that l, Crninnns GINTY, a :ti i of the United Stzttes-o-inierica, and resident of Cambria, Lockport, County oita Niagara, State of New York, hare' invented certain new and useful improvements in and llelating to Spraying Apparatus, of which the Jrollowing` is a speciiioation.

rlhis invention relates to' certain improvements in spraying apparatus; and the nature and objects of the invention will be readily recognized and understood by those skilled in the arts involved in the light oli the following explanation and detailed description of the accompanying` drawings illustrating` what l at present consider to be the preferred embodimentsor mechanical eX- pressions or the invention troni among rarions other "forms, arrangeinents, vcombinations and constructions or' which the invention is capable within the spirit and scopehthereo'". rlfhe instant invention relates particularly to spraying `apparatus of the portable or ambulant -type-adapted-tor spraying trees, eropstand suoli like, as well as ier vgeneral spraying` operations, and one of the object-s oir' the invention `is to provide certain irnproveineuts in the construction, arrangement and operation of spraying-apparatus or the foregoing general type, in `order to increase the eficiency and utility of suoli apparatus. i furtherobject of the present invention is to provide spraying apparatus of the type having' a spraying' liquid supply tank,` with inf-:ans for either creating' suction wit1 ii the t nl; by partially exhausting the air ""oni so that liquid can be real' into the tank to lill the-san e; or for creating' pressure within the tank to force lit uid therefrom in performingtheA sprayiiw` opa erations, and further to so arrange and mount such means that the same may be operated bythe movement of the veliiclD or the like upon whichy such spraying' apparatus, when ot the ambulant type, is transported.

further object 'of the vpresent invention is to `proifide sprayiiigapp-aratus of the type haring a sprayingliquid tank from which the liquid is forced pressure created within the tank, with an auxiliary compressed air tank for automatically supplying the spraying liquid tank with air underv pressure, when the pressure within the tank drops or falls below a predetermined pressenai no. esegue.

in tl e tank during rotation 'of the. tankvand without appreciable leakage' ofi-"liquid `thereroin or lowering or" pressure therewithin.

il further object of the invention .is Kto provid-e spraying` apparatus having aspraying liquid tank which is filled with spraying' liquid by suction.ereatedwithin the tank and from which sprayingliquid is forced by pressure created within the tank, with a pump for creating` the suction within the tank for drawing spraying liquid thereinto, and tor build-,ing` up pressure withinthe tank Jor forcing liquid therefrom, which pump is so constructed, mounted and connected with the tank that the spraying liquiddrawn into the tank and forced therefrom does not corne into Contact with the pump, in .order to overcome the corrosive and other detriinental and injurious effects of. the spraying liquid on the operating parts of the pump.

A further object of the inyention is to pr vine sprayingapparatus having a spraying' liquid tank and an auxiliary 'compressed k in communication therewith tor g air under pressure thereto', with Anp mounted and arranged inconnnunication with the spraying liquid tank and the auxiliary compressed air tank, in such a manner vthat air can 1foe-partially exhausted from 'fthe spraying; liquid tank vwithout eiitect uponthe :auxiliarycoinpressed air tank,

or pressure can be lbuilt up in the liquidftank Y and the Vauxiliary tank simultaneously Vby the pump. 1

A 'further object ot the invention is the provision of spraying fqnparatushaving` a spraying' liquid tank andan auxiliary coinpressedair tank in communication therewith 'for supplying air under pressure thereto, to- I Qether with a pump for buildingup pressure in the liquidtankand the auxiliary `tank and an automatically actuated Valve controlling Cil the supply of air under pressure from the auxiliary tank to the liquid tank, so that when the pressure in the liquid tank drops below a predetermined pressure, compressed air is discharged from the auxiliary tank to build up the pressure in the liquid tank to the required force.

A further object of the invention is to provide spraying apparatus of the ambulant type having a spraying liquid tank which is adapted to be filled with liquid by suction created by exhausting air therefrom and dscharged by pressure created therein, which apparatus is so constructed and arranged that after discharge of liquid from the tank air may be exhausted therefrom by and during the movement of the apparatus to a point of spraying liquid supplyA and pressure built up in the tank after filling thereof by the movement of the apparatus from the point of liquid supply to the point of spraying operatipns.

A further object of the invention is to provide certain improvements in the construction, arrangement and mounting of the various elements forming the spraying apparatus of the invention, whereby an efiicient apparatus of positive operation and simple, durable construction results.

lilith the foregoing and various other objects in view, which other objects will be readily recognized and appreciated by those familiar with the art, the invention consists in certain novel features in construction and in combinations and arrangements of parts, as more fully and particularly set forth and specified hereinafter.

Referring to the accompanying drawings:

Fig. 1, is a top elevation of spraying apparatus of the ambulant type embodying the invention.

Fig. 2, is a side elevation of the apparat-us shown in Fig. 1'.

Fig. 3, is a rear end elevation.

Fig. 4, is a vertical, longitudinal section of the rear end of the spraying liquid tank of the invention, showing the liquid discharge line therefor in vertical section, and showing the rear end tank bearing and drive gear.

Fig. 5, is a longitudinal section through the pump and valves controlling the passage of air between the tanks of the invention.

Fig. 6, is a vertical section through the automatic valve of the invention for controlling the discharge of air under pressure from the auxiliary tank to the spraying liquid tank.

,One form of the invention is illustrated and described herewith purely by way of an example, in which the features of the invention are embodied in spraying apparatus of the ambulant wheeled type, although it is to be understood that various features of the invention are capable of adaptation to and embodiment in other general types of spraying apparatus, as will be readily apparent to those familiar with and skilled in this art. The invention is of particular utility and attains a high efficiency in the illustrated type of spraying apparatus and hence such type is disclosed in order to more clearly bring forth the various novel features and advantageous results of the invention.

ln Figs. 1 to 3, of the accompanying drawings the invention is illustrated as including a wheeled supporting frame consisting of the spaced longitudinal side beams 10 and 1l, which side beams are bent or formed to extend upwardly and inwardly a distance toward each other intermediate the ends of the frame, and extend forwardly a distance to form a front length of frame elevated above and of less width than the rear length of the frame. rilhe rear, or lengths of the beams 10 and 11 at the greatest distance apart, are connected and braced by the upwardly arched cross member 12 adjacent the rear ends thereof, and the upwardly arched cross member 13 adjacent the upwardly and inwardly extending intermediate portions of the side beams 10 and 11. These arched cross members 12 and 13 are substantially parallel and extend upwardly and terminate a slight distance below the level of the elevated forward lengths of the frame side beams 10 and 11.

The forward end of the frame is provided with the axle 14: mounted in the usual or any other desired or suitable manner, and having the wheels 15 mounted thereon. The rear ends of the beams 10 and 11 are provided with the vertically disposed standards 16 across and on the upper ends of which the rear axle 17 is suitably mounted in bearings or journal boxes 18 of any desired or suitable type. The wheels 19 are mounted on and fixed to the axle 17 which is rotated thereby during movement of the wheeled supporting frame. Any usual or suitable draft means 2O may be provided at the forward end of the frame by means of which the same may be drawn.

A cylindrical spraying liquid tank 21 is rotatably mounted with its longitudinal axis horinzontally disposed, on and between the arched cross members 12 and 13, by means of stub shafts 22 and 23, fixed to and extending from the ends of the tank 21 along the longitudinal axis thereof, and j ournaled in suitable bearings or journal boxes 2li and 25, respectively, mounted on the arched cross members of the supporting frame. The stub shafts 22 and 23 on the forward and rear ends of the tank 21, are similar and each is provided with a flange 26 by means of which it is fixed to the tank end and a iiange 27 at the outer end thereof which forms a guide to maintain the shafts against longitudinal movements in their respective CII bearings on the. frame arched members. A part is provided through each end of the tank 2l in communication with the hollow stub shafts and 23, as clearly illustrated in 4 of the accompanying' drawings in which the mounting of the rear hollowshaft to the tank 2l is shown.

iin annular level gear 28 is bolted, or otherwise fixed, to the flange. 2l" on the rear tank bearing shaft 23, and a bevel gear 29 mounted on the rear axle v17 in The loose gear i l in 'proper posiin mesh with the tank cans of a clutch mechanism 1 a fixed clutch disc 3G shrunk, or .o sui l q onto the axle 1T, lovable olutoh dise 3l mounted on a (no. shown) fixed to the shaft, and

fixed dable lon udinally of the axle to and from` one ne t with the loose gear 29.

The slidaele clutch dise 3l is provided with a collar 32 fixed thereto to rotate therewith and a collar is spaced a distance along the axle il' therefrom and mounted on and fixed to the axle. A coil sp g 3e is interposed n t` slidehle clutch oise collar 32 33 on the axle 17. This so arranged that it nor- K I.tins the slidable clutelr disc 3l of eng-geni ,at with the rloose gear 29 on the axle. lSuitable clutoh operating mechanism is provided for engaging the lidahle clutch disc 3l with the gear 29 and to 'thereby cause rotation of the gear 29 with the Clutch discs 30 and 3l between and hy which it is engaged. is to be understood that any desirable or suitable clutch dise opogating mechanism may be provided, as well as any suitable clutch mechanism for causing rotation of the gear 29 hy the axle l?. ln the )resent inst-ance and with the illustrated form of clutch, the operating ineehanisin comprises a band around ain loosely a peripheral groove in the` "ffl 32, in such a manner the lar 32 is freely rotatable within the band lever 3C, extents forwardly from the and is pivotal mounted on the i hed cross member l2 of the frame at 37. Y manual operating handle or hand-wheel is mounten in operative relation with the pivoted lever in such manner that by actuation of the hand wheel 33 the lever 36 can vung laterally in either direction on the 37. hns from the foregoing it will be ap- )arent that the gea wheel 29 is normally oosely mounted on the axle 17 in mesh with i gear 23, and that through the of the hand wheel 38, the rear or of the lever 3G can be swung inand through the band 35 loosely on the clutch disecollar 32 will force the Clutch disc 3l into engagement he su 1 ivot with the gear 29 and bind the Llatter between the. disc 3l and the fixed clutch disc 30 on the opposite side of the gear 29. In this manner the gear 29 is caused yto rotatewith the aigle 17 through'the clutch discs 30 and 31, and rotates the l'tank gear 28 fixed on the tank shaft 23 to revolve the tank 2l on the shafts 22 and 23 in the journalsv or bearings 2e and 25,V respectively, mounted on the arched cross frame members v13 and 12. By proper movement of the clutch voperating hand wheel 38, the clutch discs 30 and 31 may be released from the gear 29 to permit rotation of the Lixle l?, independently of the gear 29,'which latter remains idle and the rotation of the spraying liquid tank 2l is arrested.

An auxiliary compressed air tank 39 is suitably mounted on and fixed to the forward reduced width portion of side beams l0 and il of the wheeled supporting frame, L)referably above the front axle lil. A main air supply pipe line or conouit LO extends from the auxiliary tank 39 to and in clommunication with the revolving spray liquid tank 2l, the pipe line 4l() extending from and in communication withthe auxiliary tank 39 at the lower portion thereof and approximately in line with the hollow bearing shaft 22 on the forward end of the spray liquid tank 2l. The air pipe .line or conduit l0 extends cent-rally and longitudinally through the hollow shaft 22 into the tank 2l and is formed with a vertically disposed length il terminating at the upper portion of the interior of the tank 2l in a depending spray or nozzle head 42. yllhe head l2 is provided with a suitable line mesh screen (not shown) extending' across the open or discharge end thereof to prevent entry of liquid or foreign matter into the pipe line d0, will he readily understood by and familiar to those skilled in this art. Suitable packing is interposed in the hollow shaft and around the pipe line et() extending therethrough to prevent leakage from the tank throughthe shaft around the pipeline l0. The arrangement of packingV to forni an air and liquid tight joint to permit rotation ot' the hollow shaft 22 around the fixed pipe line 40, is f the hollow shaft, and this plate is formed `witn a central bore or aperture adapted to receive and forni a running fit with a pipe line extending through the hollow shaft into the tank. The outer end of the hollow shaft is provided with a plate 44C fixed therein and closing the shaft, and this outer plate is likewise formed with a central bore or apen ture alined with the bore in the inner plate 43 and adapted to receive and form a running fit with a pipe line extending through the hollow shaft. rlhe inner and outer pla-tes 43 and 44 form a chamber 45 within the hollow shafts of the tank and around a pipe line extending therethrough which chamber is adapted to be filled with any suit-able or desired packing material. By the foregoing construction and mounting of the pipe line in and extending through the hollow shaft Q2, the shaftis revoluble around the fixed pipe line 40, without possibility of leakage from the tank through the hollow shaft, the tank being maintained substantially air and liquid tight by the arrangement of packing within the packing chamber 45 formed between the inner and outer plates 43 and 44 fixed in and rotatable with the shaft around the pipe line 40.

rllhe rear end of the tank 2l is formed with a circumferential enlargement forming an annular chamber 46 therearound, and a spraying liquid discharge and intake pipe 47 extends through the hollow rear shaft 23 of the tank 2l and is formed with a depending vertically disposed length 48 extending and terminating in the lower portion of the tank within the annular chamber 46. The end of the depending length 48 of the pipe 47 is provided with a discharge and intake head 49 having` a. fine mesh screen 50 extending across the opening therein. (See Fig. rlhe pipe 47 extends through the hollow shaft 28 and the closure plates 43 and 44 and packing chamber 45, in a manner similar to that hereinbefore described with respect to hollow shaft 22 and pipe line 40, to the rear of shaft 23 and gear 27 fixed thereon, and terminates in an upwardly extending vertically disposed stand pipe 5l having a shut-off valve 52 mounted therein for opening and closing the same,

n n air pipe 53 extends through the discharge and intake pipe 47 into the upper portion of the tank 2l where it terminates in an intake head 54 provided with suitable guard screens to prevent entry of foreign matter therein'to. The air pipe 53 extends upwardly a distance through the standpipe 51 and passes outwardly through a side thereof where it is connected and placed in communication with the upper end of a suitable gauge or the like 54. The lower end of the gauge 54 is connected and placed in communication with the interior of the stand pipe 5l by a pipe 55. A suitable drain coc-k 5G is provided in the air pipe 58 and extends to and is operable from the exterior of the pipe 47 The stand pipe 51 and the pipe 47 are maintained in fixed position by means of a standard 56 secured to the arched cross member l2 of the Aframe and extending rearwardly and upwardly to the stand pipe 51, where it is provided with a collar 57 extending around and confining the pipe 5l in proper fixed, vertically disposed position.

A pump 58, in the present instance a reciprocatory force pump, is mounted on one side of the supporting frame intermediate the tank 2l and tank 39, in the example illustrated on the side beam ll. rlhe airy pipe line 40 is placed in communication with the pump 58 by the pipes 59 and 60, forming with the pump, in effect, a by pass line from the pipe line 40. ln the illustrated example of the pump 58 and the mounting thereof, the pipe 59 is in communication with the forward end thereof, while the pipe 60 is in communication with the rear end thereof. rlhe construction of the pump 58 is illustrated in Fig. 5 of the accompanying drawings. A piston 6l is slidably mounted in the pump cylinder 62 and is connected with a crank shaft 68, which is mounted extending transversely through and across the pump cylinder, by a connecting rod 64, so that rotation of the crank shaft causes reciprocation of the pump piston 6l. rlfhe pump crank shaft extends outwardly from one side of the pump 58 and is provided with suitable operating connections hereinafter referred to and described. The pump piston 6l is provided with the valves 65 and 66 in and closing portsl formed through the head of the piston. rhe valve 65 is mounted and arranged to seat in a conical port formed on the outer or forward side of the piston 61, and is adapted to be opened on the rearward stroke of the piston and closed by the forward stroke thereof. A spring 67 mounted on the valve stem 68 between the stem guiding and bearing bracket 69 and the valve stem head 70, maintains the valve G5 normally closed and seated. The valve 66 is mounted to seat in and close a port formed on the inner or rear side of the piston 6l, and is adapted to be maintained normally closed during operation of the pump piston by means of a heavy spring 7l of greater tension than the normal force exerted on the valve 66 in operation, which spring is mounted on the valve stem 72 between the valve 66 and the bearing bracket 7 3 for the valve stem.

The driving mechanism for operating the pump piston 6l comprises a. pulley 74 mounted on the outer end of the crank shaft 63, and suitable clutch mechanism 75 having an operating handle 76 (see Fig. 1 of the drawings) for engaging and disengaging the pulley 74 with the crank shaft 63. The rear axle 17 of the wheeled supporting frame of the apparatus is provided with a. gear wheel 7 7 fixed thereon to rotate therewith. A gear wheel 78 is suitably mounted on the frame by means of a standard or bracket 79 (see Fig.

a l) and in mesh with and driven hy the gear 77 on the roer axle-17. The gear 78 drives a suitable pulley 80 which is lined to and.' mounted on the shaft for the gear- 78, and

the pump piston causes the saine to torce or compress air cuitsv forward stroke, as theyalye 65 will he closed and the tension of the spring 7l on the valve 66 is suiiicient to.

maintain vulve 66 closed-against `norinalI air compressing force exerted thereon during the 'forward Stroke ofthe piston. On the reali' stroke of the pump piston G1, the valve 65 is opened, the spring 67 kcontrollingv the saine being of relatively iyealr tension, and :iir passes through to the forward portion of the punip Cylinder to be forced hy the piston on its forward stroke, the hioref/oing operation heini;V Well understood oy those skilled in this art. Manually operable valve mechanisnis S2 and S3 areiiio-uiited in the pipes 59 and 60, respectively, adjacentthe ends of the pump 58, for controlling the passage of air therethrough. Theseyalye inechenisine are illustrated in detail in Fig. 5 of the accompanying drawings, the Valve ineohanisni 82 comprising` ay plug` valve 85 mounted transversely through the pipe 59 Whiohlstn ter is `l'oi'ined with a constricted `portion 1 ro'- riding a duct S6 tiieiethrough controlled hy the plug` valve 85; und the yalye nieohnnisin 953 Comprising: a` plug` Valve 8'! ounted tiansyeisely through the pipe (SO/Which is forir ed With :i oonstricted portion providing S8 therethrough Controlled by the-plugl The plug rfilye is Yoriiied withv a conical hoi'e 89 transversely therethrough adapted to he alined with the pipe ductr,4

u spring' controlled yalye 90 mounted therein andA normally maintainedl and hay* seated by the springptherefor to close the hore 89. short loore 9l-'isornied nrough the plug` yalye S5' and yeriteinls through one side thereof' at an ongle tothe bore 89 and terminates iu eoinuiunioation with the bore 89. fr 1bore 92 i. prorir edthiiourgh tile pipe at an anle to the duct SG therethrough and minimi Cates with the atmosphere. The arrangein i of the plug,- valve-bores 89 and 9i,` issueh that. in one posit-ion oi the valve the lioi'e 9i is nliued Withthe duct86 in the pipe and .in the other position thereof-thev short here 9l is in communication With inner or puinp end or' tlieediiot 86,' and the plug` here 89`A alined With the pipe vhere 92 Ywhich :opensfto fatniosphere. Infthisi latter-position of the` plugyalye the pump; 58d-f is in communication ywiththe*y atrn@sphereiiv through duct 86,A here V91, bore 89a-iidithe,Y

`pipefloore y92,-f As hereinloeforey pointedhout; '-70 u the forward strolre of the Vpuinp pistonlfisf.vv the air compressing strolrff-, hence the spring, oontrolled'ya-lve 90 f mounted in thel plug Y valve bore 89 is arranged to"l actasa ioheclr yValve in the-,two positionsfothe tp-lugyalve-,Jv

to Wit7 discharging into pipe 59, .or discharge. ing' to` vatmosphere, through bore 7.90.

The plug-yalye 87, ofthe yalye` mechanism- 83 in the pipe 60, is pro-vided with -a c0inica-l-5` vbore 93 eirtendind transyei'sel therethrouofh 80::

ZIJ G and adapted in oneiiposition :of .-thewplugfiy Valvevz to he alined With the duet-88 rini-the re-` strictedy portion of' thepipe '60: fr spring', controlled Vyalyev 94 ismounted-in the: conica-lg here 93 Yand:normally,seats in andlolosesft-he'iaenlarged end of thehore93,y dueto-thefaotionf2 of the spring controllinggthe lsaidl yalyeQL. A loo're 95 extends through the restricted v portion of the pipe() at zin-angle to' and.-

terininates atits inner.end-inthe plug Valve-.1902* bore 93s the outer end oftheoore'95-coniinu-v `nicating With the atmosphere i'lhe fplu'g Valve 87'is inountedin the pipei=60 so: Cheli the'enlarged end oi thebore 93? isin @corne- Y niunication with the'puinp end oftheipipo=`95ffduct 88,V and the angle of the pipe -leere-95, with respect to the Width of the enlargedend 'of the conical hore93, :is-such thatwhenthe plu-g valve isirotated to pla e :the outer-end'` v ofthe loore 93v in'ooinniunicetion lWi-th.zthes1001- pipe ho're 95,V the inner. enlargedendf of *the-'1 here 93reinains open to and in communica-i tion with the inner or puinp end of thekpipevv duct 88. The foregoing construction-and mounting` of th'eya-lye inechanisnis 82andf83 105 Will be readily understood by reference to. Fig. 5 of the Vdrawings.

in automatic controlling vvalve 96 is-interposed in the :inainairpipe line. between 6 of the accompanying draWings,-and coin.- prises a pipe rsection 97 connected in'ithe'll*V main `-air supply line and. formed: Withwa .fei-rically disposed f cylinder 98k intermediate thereiids thereof and in open coininunicationyl at its innerfor louer yendwith the 1-pipe sec- A plug' 99 having a centralilongi- 120 '1 tion 97;' l tudinally disposed hoi'e'lOOi's mounted 'ini the. sectionI QThety-.reen theE cylinder 98"- aiidthe forwardk or compression tanlr end` ot the .section M"- ThefboreslOO terininstesvat its 'forward 'or outer end'fin a conical "Valve :125

'. through `the duct l0() and y is' mounted-at its i' 130 inner end to a bell crank lever 104 pivotally mounted in the section 97 below the forward side of the cylinder 98. A piston 105 is mounted in the cylinder 98 for vertical reciprocation therein and is provided with-a depending piston rod 106 pivotally connected with an arm of the bell crank lever 104. A stop 107 is mounted in the pipe section below and in line with the piston rod 106 toA limit downward movement thereof. A coil spring 108 is interposed in the cylinder above the piston 105 and is confined therein by an adjustable cap 109 screw threaded int-o and closing the upper end of the cylinder 98. A hand wheel 110 is provided for raising and lowering the cap 109 to vary the tension of the spring 108 on the pist-on 105. The foregoing arrangement is suoli that, the Spring 108 normally forces the piston 105 downwardly which rocks the bell crank lever 104 to force the valve stem 108 outwardly through the bore 100 and unseat the valve 102 from the conical valve seat 101, and thus open the bore 100 to passage of air therethrough. The functions and operation of this automatic controlling valve are explained in detail hereinafter.

The main air pipe line 40 is provided with a trap 111 adjacent the liquid tank discharge end thereof and this trap is provided with a series of fine mesh strainer screens (not shown) and with the usual drain cock 112. An air pressure gauge 113 is mounted in the air line 40 adjacent the tank 21 for determining the pressure within such tank, and an air pressure gauge 114 is mounted in the air line 40 adjacent the auxiliary tank 39 for determining theV air pressure within said auxiliary tank.

The operation of the hereinfore described apparatus embodying the various features of the present invention will now be described. Assume that the tank 21 has been filled with the desired volume of spraying liquid and that the shut-off valve 52 in the intake and discharge pipe 51 is closed, and it is then necessary to build up pressure in the tank 21, through the action of which pressure the spraying liquid can be discharged from the tank as desired. The pressure is built up in the tank 21 by the pump 58 which is actuated as an air compressing force pump. To cause the pump 58 to build up the pressure in the tank 21, the plug valve 87 is rotated to a position with the bore 93 thereof in communication with the bore 95 in the pipe 80, and with the enlarged inner end of the bore 93 in communication with the pump cylinder through the duct 88. In this position of the plug valve 87 the pipe 60 is cut off from the pump and the latter is placed in communication with the atmosphere. The plug valve 85 is then rotated to position in the pipe 59 with the bore 89 therethrough in line and communicating with the duct 86, so that the pump is in communication with the pipe 59, and shut olf from the pipe bore 92 which opens to atmospl'iere. ith the valve mechanisms 82 and 88, in the positions above indicated, the clutch is operated to engage the pulley 74 on the crank shaft 63, so that., as the wheeled supporting frame is drawn along, the crank shaft is rotated to reciprocate the pump piston 61, through the action of the gears 77, 78 driven by the rear axle 17, and the driving belt 81 connecting the pulley 80 with the crank shaft pulley 74. The reciprocation of the pump piston 61 causes the same to force and compress air on the forward strokes, due to the mounting of valve 65 and the tension of the spring 71 maintaining valve 66 normally seated. The air is forced on the forward strokes of the piston G1 through the duct 86 in the pipe 59 and the bore 89 in the plug valve alined therewith, the spring controlled valve in the bore 89 functioning as a check valve to permit passage of air into pipe 59 on the compression strokes of the pump piston 61 and to prevent back flow of air from the pipe to the pump on the non-compression (rear) strokes of the pump piston. pression strokes of the piston as well as forcing air into the pipe 59, at the same time suck or draw air into the pump cylinder from atmosphere through the bore 95, the spring controlled valve 94 in the bore 98 of the plug valve 87 acting as a check valve opening toward the pump cylinder on the forward stroke of the piston and closing to prevent escape of air drawn into the pump cylinder upon the rear or non-compression stroke of the cylinder. The air so drawn into and trapped in the pump cylinder on the compression strokes of the pump pistou passes through the weak spring controlled valve 65 on the rear or non-compression strokes of the pump piston.

In this manner air is forced through the pipe 59 under pressure into the main air line 40 and passes therethrough forwardly into the auxiliary air tank 89, and rearwardly through the pipe line 40 into the liquid tank 21 through the vertically disposed pipe 41 and the bead 42 therewithin. The automat-ic valve 96, as set forth hereinbefore is normally maintained open by the spring 108 acting on the piston 105 thereof, so that the air forced from pipe 59 into pipe 40 has unobstructed passage under! normal conditions into the liquid tank 21. The foregoing operations are continued to compress air and build up pressure in the spray liquid tank 21 and the auxiliary tank 89, until the pressure is built up in the tank 21 to a predetermined force. The predetermined pressure which may be built up in the tanks is determined by the tension at which rllhe forward or' com-- failure of the automatic the spring 108 acting on the piston 105 in the automatic valve.V 96, is set. lWhen the pressurefin tank 21 reaches a force. sufficient to overcome the tension of the spring 108 in valve 96, the pistonv 105 is forced upwardly thereby which closes the valve 102, through the pivoted bell crank lever 1011 connecting the piston red 106 with the valve stem 108, and closes the tank 21 from the pump 58 and further supply of air under pressure. The pressure which may be built up in the auxiliary `tank 39 is determined by the tension of the spring 71 which maintains the valve 66 normally closed in the pump piston 61. Then the pressure is built up in the auxiliary tank 89.' iciently to. overcome the tension of the valve spring 71, the valve 66 is forced open and air escapes through the pist-on tov atmosphere, thus preventing the creation of too great a pressure. in the auxiliary tank. ln effect, the valve-66 in the pump piston acts as asafety valve for the auxiliary tank 39, and for the spray liquid tanl. 21 as well, in the event of valve 96 in the main air line 40.

The foregoing air compressing operations for building up pressure in the tanks 21 and 39 are continued until. the desired degree of pressure is obtained, or until the pressure in tank;21 closes automatic valve 96. and the pressure in auxiliary tank 89 attains the. limit of the valve 66. These pressures can be determined for tank 21 by the pressure gauge 118 in the pipe line 10, and for the auxiliary tank 89 by the pressure gauge 1111 in the air line 10. After the desired pressures are obtained by the compressedv air stored` in the tanks 21 and the clutch'levcr 7 6 is actuated tothrow out the clutch and disengage the pump from its driving connections with the rear axle 17. The apparatus. is then prepared for the` spraying operations. Any suitable or desired spray heads or flexible hose connections are coupled to the end of thesta-nd pipe 51 of the discharge pipe i7 and the shut-oli' valve 52 is opened to the required degree, upon opening cf .valve the pressure in the tank 21 forces the spray liquid therefrom through the pipe length 48 in the tank, dischargeipipes 4f? and 51 through the spraying connections (not shown) connected with the said stand pipe 5 lfhen the pressure is reduced in the tank 21, from continued spraying operations to a rec less than the tension of automatic valve spring 108, said spring forces piston 105 inwardly and opens valve 102 to permit discharge of compressed air from the auxiliary tank 89 through air line /10 into tank 21 to increase the pressure therein to the required degree to discharge spray liquid therefrom with the desired force. the

pressure is raised by this means above tenof the tank will thoroughlymix the spraying liquid, as well as breaking up and pulverieing solid vportions of the ingredientsforming the mix-turc, which .through any cause have gained lentry into the tank 21. rThe .construction of the tank 21 with the enlarged annular chamber 1116 therearoundA and the section 18 ofthe liquid discharge pipe extending and terminating therewithin, permitsofthe discharge ofthe entire liquid contents-'of the tank, as -.when. the liquid isi-practically dischargedy and the level-is low in the tank, ,the movements of the tank will causethe liquid to drain into the chamber 16 from which it is readily forced through. the section 18 of the `discharge pipe. rlhe mounting and location of the air pipe 11 in the tank 21 is such that the liquid inthe tank cannot be readily thrown thereinto or otherwise gain entryvinto the pipe 11 or the main air line s1-0,

After the supply of spraying liquid has been forcedV from the tank 21, the tank can be filled by suction in the following manner. The shut-ofil valve 52 in the stand pipe 51 is closed. 'The plug valve 87 is rotated to the position shown in Fig. 5 with the pipe bore 95 to atmosphere closed thereby and theV valve bore 93 in communication with the duct 88 of the pipe 60. The plug valve 85 is rotated to the position indicated in Fig. 4 with the bore 91 thereof in communication with the innerl or pump end of duct 86 in pipe 59 and with the enlarged end of bore 89 in communication with the pipe bore 92 opening to atmosphere.while the pipe 59 is cut off from communication .fith the pump by the body of the plug valve 85. rllhe clutch 75 .is thrown to engage pulley 74. and cause operation of the pump piston` 61, 'which then acts as an air exhausting pump drawing air from tank 21 and discharging thesameto atmosphere through bore `92, the spring controlled valves 90 and 9e in the respectivo plug valves performing the function of check valves during the air exhausting operation. lnasinuch as in the instant arrangement of the automatic valve' 96, this valve is normally open the operation of the pump `to an exhaust .air from `tank 21, also results in the exhaustion of air from lthe auxiliary tank 39, thus increasing the suction force of the apparatus in filling tank 21. The degree of minus or sub-atmospheric pressure which may be created lin the tanks is determined by the tension of spring 'T1 of valve 66, as when the minus pressure in the tanks is sufficient to draw Valve 66 open, air under atmospheric pressure is admitted to the tanks.

lVhen the desired degree ot minus pressure is established in the tanks a connection is made from the stand pipe 51 of the discharge pipe l? to a suitable source of liquid supply and the shut-olic valve 52 in pipe 5l is opened. Upon opening of valve 52 a suction is created by the minus pressure in the tanks and liquid is drawn into tank 21 through stand pipes t7 and 48. Liquid is drawn into the tank 21 until the volume therein overcomes the suction effect of the minus pressure at which point substantial equalization is reached and the valve 52 closed. F rom this point on the creation of positive pressure and the spraying voperations have been fully described hereinbeiore. Generaly in the use of spraying apparatus ot the portable or ambulant type the source of liquid supply is distant from the field of spraying operations and the apparatus of the present invention is of extreme utility under such conditions, as ait-er iilling the liquid tank the spraying pressure can be built up therein by the movement of the apparatus from the point of liquid supply to the held or spraying operations, and after the liquid has been consumed in spraying the minus pressure in the tanks for filling the same can be created by the movement of the apparatus to the point of liquid supply.

Any suitable or desired spray devices (not shown) may be attached to and connected with the spraying liquid discharge pipe from the tank 2l, which spray devices may be either ot the iiexible and portable type, such as flexible hose and spray nozzles, or ot the type having a series of spray nozzles and mounted on and suspended from the rear end of the wheeled supporting trame. It is not deemed necessary herein to disclose such devices as it will be clear and understood by those familiar with this art, the manner in which such devices are operated.

The various Jfeatures ot the invention can be readily adapted to and embodied in various 'forms in other than spraying apparatus of the portable or ambulant type. It is also evident that various changes, modifications, variations and substitutions might be resorted to without departing from the spirit and scope of my invention, and hence I do not wish to limit the invention to the exact disclosures hereof.

Desiring to protect my invention in the broadest manner legally possible, what I claim is:

l. In spraying apparatus, a liquid tank, an auxiliary air tank, an air line from said auxiliary tank to and con'nnunicating with said liquid tank, an automatic valve mountineaaae ed in said air line and controlling passage therethrough, a by pass line from said air line around said automatic valve mounted therein, and a pump mounted in said by pass line for Jforcing air therethrough and into said tanks for building up pressure therewithin, the said automatic valve adapted to be closed when the pressure in said liquid tank reaches a predetermined pressure.

2. In spraying apparatus, a liquid tank, an auxiliary air tank, an air line from said auxiliary tank to and communicating with said liquid tank, an automatic valve in said air line controlling passage of air therethrough, a by-pass line from said air line around said automatic valve, a pump mounted in said by-pass line and valves mounted in said by-pass line for actuation to cause said pump to force air into said tanks to build up pressure therein, or to exhaust air :trom said tanks to create minus pressure therein, the said automatic valve inrsaid air line normally open and adapted to be closed by the pressure in said liquid tank exceeding a predetermined pressure.

3. In spraying apparatus, a spray liquid tank, an auxiliary tank, an air line Jtrom said auxiliary air tank to and communicating with said liquid tank, a by-pass line from the liquid tank end of said air line to the auxiliary tank end thereof, a pump mounted in said by-pass line, and valve mecha nisms for closing the liquid tank side of said byepass line and placing the same in communication with atmosphere to cause the pump to torce air through the auxiliary tank side of said by-pass line and into said tanks to build up pressure therein, or to open the liquid tank side of said by-pass lineV and close the auxiliary tank side and place the same in communication with atmosphere to cause the pump to draw air from said tanks through the said air line and the liquid tank side of said by-pass line and discharge the air to atmosphere to create minus pressure in the said tanks.

4. In spraying apparatus, a spray liquid tank provided with opposite end hollow axles extending Jfrom the tank along the longitudinal axis thereof, the said tank mounted 'for rotation on said hollow axles, a fixed liquid discharge pipe extending through one or" said hollow axles to the interior of said tank and depending into the lower portion thereof, a iixed air pipe extending through the other of said hollow axles to the interior of said tank and terminating and discharging into the upper portion of said tank, means tor rotating said tank, and means for discharging air under pressure into said tank through said air pipe, or for exhausting air from said tank through said air pipe to create minus pressure within the tank.

5. In ambulant ,spraying apparatus, Aa Wheeled supportingframe, afspray liquid tank rotatably mounted on said frame, drivsaid ,tank .anddischarging in the upper portion thereof, and means actuated by y said Wheeled frame for forcing air under pressure through said air pipe into saidtank to build up pressure therein, or for exhausting air from vsaid tank through said air pipe to create minus pressure in said tank.

6. In spraying apparatus, a spray liquid tank mounted for rotation 0n a longitudinal axis, the said tank formed at one end with an annular enlargement forming a chamber therearound, a liquid discharge pipe extending into said tank and terminating Within said annular chamber, an air pipe extending into said tank and terminating in the upper portion thereof, and means for discharging air under pressure through said liquid pipe into said tank, or for exhausting air from said tank through said air pipe to create minus pressure in the said tank.

7. In ambulant spraying apparatus, al

Wheeled supporting frame, a spray liquid tank rotatably mounted on said frame, driving connections from said Wheel frame to the spray liquid tank for rotating the latter, and means actuated by said Wheeled frame for forcing air under pressure into said tank, or for exhausting air from the said tank.

8. In ambulant spraying apparatus, a Wheeled supporting frame, a spray liquid tank rotatably mounted on said frame, operating connections from said frame to the tank for rotating the latter, a compressed air tank mounted on said frame in communication with said spray liquid tank, and means actuated from said Wheeled frame for forcing air under pressure into said compressed air tank and spray liquid tank, or for exhausting air from the said tanks.

9. In ambulant spraying apparatus, a Wheeled supporting frame, a spray liquid tank rotatably supported on said frame, operating connections from said wheeled frame to the spray liquid tank for rota-ting the latter, a fixed compressed air tank on said frame, an air line from said fixed tank to and discharging into said spray liquid tank, means actuated from said Wheeled frame for forcing air under pressure into said fixed tank, or for exhausting air therefrom, and an automatic valve in sald air line controlling discharge of air under pressure into said: rotary spray liquid tank'. 10. In ambulant lspraying"apparatus,l a Wheeled supporting frame, a spray liquid tank rotatably mounted on said frame, means actuatedV from said Wheeled. frame for rotating the spray liquid tank, a'compressed air tank on said frame, an air line from the compressed lair tank to and Vdischarging into the spray vliquid tank, an automatic pressure controlled valve in lsaid air line intermediate ythe vsaid tanks, pass line from'said airline around'thefautomatic valve therein, and air Vcompressing means insaid by-p'ass line for forcing air under pressure intosaid compressed air tank einV or for exhausting air therefrom, the said air compressing vmeans 4actuated from rthe wheeled supporting frame.

l1. In ambulant lspraying apparatus, a Wheeled supporting frame, a spray liquid tank rotatably supported thereon, driving connections from the Wheeled frame to the spray liquidtank lforrotatingV thelatter, a compressed air tank mounted on the frame, an air line from the compressed air tank to and discharging into said rotatable spr-ay liquid tank, air compressing means in communication With and discharging into the compressed air tank for forcing air under pressure therein to build up pressure in said spray liquid tank, or for exhausting air therefrom to establish minus pressure in the spray liquid tank, and operating mechanism for said air compressing means actuated by said wheeled supporting frame,

12. In spraying apparatus, in combination, a spray liquid tank, a compressed air tank, an air line from the compressed air tank to the spray liquid tank, an automatic valve in said air line intermediate the said tanks, a by-pass line from said air lineV inclined upwardly and extended forwardly l to form an elevated support, spaced cross members extending between said side beams,r

a spray liquid tank rotatably supported between said cross members, operating connections from and actuated by said Wheeled frame to the spray liquid tank for rotatin the latter, a compressed air tank mounte on the elevated support formed by said side beams, an air line from said compressed air tank to said rotatable spray liquid tank,

the saidair line lixed and extending axially and discharging into the spray liquid tank, and means actuated from the Wheeled supporting frame for forcing air under pressure into said compressed air tank, or for exhausting air therefrom.

14. In ambulant spraying apparatus, a wheeled supporting frame including spaced side beams at one end inclined upwardly and extended to form an elevated support, spaced cross members on said side beams, a spray liquid tank having hollow axles at opposite ends thereof rotatablf supported on and between said cross mem ers, operating mechanism actuated by movement of said wheeled frame for rotating said liquid tank, a fixed discharge extending from the interior of said liquid tank outwardly therefrom through one of said hollow axles, a fixed air pipe extending into said tank through the other of said hollow axles, and a compressed air tank mounted on the elevated support formed by said side beams tank to and discharging into the liquid tank, a normally open pressure controlled valve in said air line adapted to close when the pressure in the liquid tank exceeds a predetermined pressure and to open when the pressure falls below the predetermined pressure, a by-pass line from and to the air line around said valve, means mounted in said lay-pass line for forcing air under pressure into saidcompressed air tank and for exhausting air therefrom, and valves mounted in said by-pass line for causing said means to force air into said compressed air tank er to exhaust air therefrom.

Signed at Cambria, Lockport, New York, this 3rd day of August, 1922.

CHARLES L. GINTY. 

